Electrolyte thickness dependence of the electrochromic behavior of ‘‘a‐WO3’’ films
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[1] K. Miyake,et al. Physical and electrochromic properties of the amorphous and crystalline tungsten oxide thick films prepared under reducing atmosphere , 1984 .
[2] Mino Green,et al. Sodium tungsten bronze thin films: Variation of chemical potential with sodium concentration , 1983 .
[3] Masaki Watanabe,et al. The Effect of Repeated Operation on Electrochromism in an All-Solid-State Device Using Li-Doped MgF2 Thin-Film Electrolyte , 1983 .
[4] Masaki Watanabe,et al. Electrochromism in a Thin-Film Device Using Li2WO4 as an Li-Electrolyte , 1983 .
[5] Masaki Watanabe,et al. Electrolysis in Electrochromic Devices Consisting of WO3 and MgF2 Thin Films , 1982 .
[6] G. Beni. Recent advances in inorganic electrochromics , 1981 .
[7] L. M. Schiavone,et al. Electrochromic cells with iridium oxide display electrodes , 1981 .
[8] S. Ogura,et al. Solid state electrochromism in WO3 , 1979 .
[9] G. Zydzik,et al. Efficiency and humidity dependence of WO3‐insulator electrochromic display structures , 1979 .
[10] J. Randin. Chemical and electrochemical stability of WO3 electrochromic films in liquid electrolytes , 1978 .